Heater-equipped seat

ABSTRACT

A vehicle heating apparatus ( 100 A) of the present disclosure is a heating apparatus to be mounted on a vehicle seat ( 11 ) at a position below a sitting portion ( 5 ) of the vehicle seat ( 11 ). The vehicle heating apparatus ( 100 A) includes: a housing ( 10 ) having an intake port ( 2 ), a blowing port ( 3 ), and an internal space ( 4 ) serving as a flow path of air from the intake port ( 2 ) to the blowing port ( 3 ); a fan ( 6 ) provided in the internal space ( 4 ); a heater ( 7 ) provided in the internal space ( 4 ); and a mounting structure ( 8 ) adapted to mount the housing ( 10 ) to the vehicle seat ( 11 ) in such a manner that the housing ( 10 ) is movable in a width direction of the vehicle seat ( 11 ). Therefore, the vehicle heating apparatus ( 100 A) of the present disclosure is highly convenient for occupants.

TECHNICAL FIELD

The present invention relates to a vehicle heating apparatus to beattached to vehicle seats. The present invention also relates to aheater-equipped vehicle seat including the vehicle heating apparatus.

BACKGROUND ART

As seats for vehicles such as wheeled vehicles, heater-equipped vehicleseats capable of supplying warm air to the lower legs of occupants havebeen conventionally proposed.

Patent Literature 1 discloses a heater-equipped vehicle seat 200 inwhich an air conditioner 210 is disposed within a seat cushion 211B asshown in FIG. 12. The air conditioner 210 has an intake port 202, anintake duct 204A, an air blower 206, a pair of discharge ducts 204B, apair of heaters 207, and a pair of discharge ports 203. The heater 207is disposed within each of the pair of discharge ducts 204B. The intakeport 202 and the pair of discharge ports 203 open in a forward directionwith respect to the heater-equipped vehicle seat 200, and are arrangedside by side in a horizontal direction. In addition, the discharge port203 is provided with a fin 203A for causing air discharged from thedischarge port 203 to be directed downward.

Patent Literature 2 discloses a heater-equipped vehicle seat 300including, as shown in FIG. 13, a seat cushion 311B, a leg rest member308, an air blower 306, and a duct 304. A portion of the duct 304 isformed in the leg rest member 308. Warm air delivered from the airblower 306 is supplied toward the lower legs of an occupant through theduct 304. The leg rest member 308 is configured to move back and forthin response to the back-and-forth movement of the legs of the occupant.

CITATION LIST Patent Literature

Patent Literature 1: JP 2011-254882 A

Patent Literature 2: JP 2012-183154 A

SUMMARY OF INVENTION Technical Problem

The heater-equipped vehicle seats described in Patent Literature 1 andPatent Literature 2 have room for further performance improvement interms of convenience for occupants. In view of this, the presentinvention aims to provide a vehicle heating apparatus and aheater-equipped vehicle seat that are highly convenient for occupants.

Solution to Problem

The present disclosure provides a vehicle heating apparatus to bemounted on a vehicle seat at a position below a sitting portion of thevehicle seat, the vehicle heating apparatus including:

a housing having an intake port, a blowing port, and an internal spaceserving as a flow path of air from the intake port to the blowing port;

a fan provided in the internal space;

a heater provided in the internal space; and

a mounting structure adapted to mount the housing to the vehicle seat insuch a manner that the housing is movable in a width direction of thevehicle seat.

Advantageous Effects of Invention

With the features of the above vehicle heating apparatus, a vehicleheating apparatus highly convenient for the occupant can be provided.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view of a heater-equipped vehicle seat accordingto a first embodiment of the present disclosure.

FIG. 2 is an enlarged view of a major portion of the heater-equippedvehicle seat of FIG. 1.

FIG. 3 is a front view of a vehicle heating apparatus according to thefirst embodiment.

FIG. 4 is a cross-sectional view taken along the IV-IV line of FIG. 3.

FIG. 5 is a cross-sectional view showing a mounted state of the vehicleheating apparatus according to the first embodiment.

FIG. 6 is a cross-sectional view for illustrating a circulating flow ofwarm air.

FIG. 7A is an enlarged view of a major portion of a locking mechanism ofa vehicle heating apparatus according to a modification.

FIG. 7B is an enlarged view of a major portion of the vehicle heatingapparatus in which the locking mechanism of FIG. 7A is in a lockedstate.

FIG. 8 is an enlarged view of a major portion of a heater-equippedvehicle seat according to another modification.

FIG. 9 is a front view of a vehicle heating apparatus according to asecond embodiment.

FIG. 10 is a front view of a vehicle heating apparatus according to athird embodiment.

FIG. 11 is a front view of a vehicle heating apparatus according tostill another modification.

FIG. 12 is a perspective view of a conventional heater-equipped vehicleseat.

FIG. 13 is a side view of another conventional heater-equipped vehicleseat.

DESCRIPTION OF EMBODIMENTS

In the heater-equipped vehicle seat 200 of Patent Literature 1, thepositions of the discharge ports 203 in the width direction of theheater-equipped vehicle seat 200 are fixed at particular positions. Inorder to, for example, increase the warmth for an occupant, the occupantmay desire to adjust the positions of the discharge ports 203 in thewidth direction in accordance with the bodily characteristics of theoccupant or the sitting posture of the occupant. However, in theheater-equipped vehicle seat 200 of Patent Literature 1, the positionsof the discharge ports 203 in the width direction cannot be adjusted.

In the heater-equipped vehicle seat 300 of Patent Literature 2, the legrest member 308 moves in a back-and-forth direction in response to themovement of the legs of the occupant; however, the leg rest member 308does not move in the width direction of the heater-equipped vehicle seat300.

A first aspect of the present disclosure provides a vehicle heatingapparatus to be mounted on a vehicle seat at a position below a sittingportion of the vehicle seat, the vehicle heating apparatus including:

a housing having an intake port, a blowing port, and an internal spaceserving as a flow path of air from the intake port to the blowing port;

a fan provided in the internal space;

a heater provided in the internal space; and

a mounting structure adapted to mount the housing to the vehicle seat insuch a manner that the housing is movable in a width direction of thevehicle seat.

According to the first aspect, the housing of the vehicle heatingapparatus can be mounted to a vehicle seat by the mounting structure insuch a manner that the housing is movable in a width direction of thevehicle seat. The occupant can move the housing of the vehicle heatingapparatus to an appropriate position in the width direction of thevehicle seat in accordance with the bodily characteristics of theoccupant, the sitting posture of the occupant, etc. Therefore, theconvenience for the occupant is high.

A second aspect of the present disclosure provides the vehicle heatingapparatus as set forth in the first aspect, wherein, in a usage statewhere the vehicle heating apparatus is mounted on the vehicle seat, theblowing port is located above the intake port and opens downwardlyrelative to a horizontal direction. According to the second aspect, theintake port is located below the blowing port. Furthermore, the blowingport opens downwardly relative to the horizontal direction. Therefore,warm air blown out through the blowing port forms a circulating flowbelow the leg of the occupant and thus is highly likely to reach theintake port. Therefore, the temperature of air drawn into the intakeport can be increased, and the amount of heating required for the heatercan be reduced.

A third aspect of the present disclosure provides the vehicle heatingapparatus as set forth in the first aspect or the second aspect, whereinthe flow path of air has a narrowing flow path having a flow pathcross-sectional area that decreases from an upstream side toward adownstream side in a flow direction of air. According to the thirdaspect, the flow velocity of the air flow toward the downstream side canbe increased.

A fourth aspect of the present disclosure provides the vehicle heatingapparatus as set forth in any one of the first to third aspects, whereinthe mounting structure has an engaging portion that engages with asupport structure fixed to the vehicle seat. According to the fourthaspect, the housing can be mounted to the vehicle seat by engagement ofthe engaging portion with the support structure.

A fifth aspect of the present disclosure provides the vehicle heatingapparatus as set forth in the fourth aspect, wherein the supportstructure has a rail fixed to the vehicle seat so as to extend in thewidth direction, and the engaging portion engages with the rail in sucha manner that the housing is movable along the rail in the widthdirection. According to the fifth aspect, the housing can be moved alongthe rail. Therefore, the position of the vehicle heating apparatus inthe width direction can be minutely adjusted.

A sixth aspect of the present disclosure provides the vehicle heatingapparatus as set forth in the fifth aspect, wherein, in a usage statewhere the vehicle heating apparatus is mounted on the vehicle seat, theengaging portion engages with an upper end portion of the rail and alower end portion of the rail. According to the sixth aspect, since theengaging portion engages with the upper end portion of the rail or thelower end portion of the rail, the posture of the housing is stable whenthe engaging portion is in engagement with the rail.

A seventh aspect of the present disclosure provides the vehicle heatingapparatus as set forth in the fifth aspect or the sixth aspect, furtherincluding a locking mechanism provided at an end in the width directionof the housing, wherein the locking mechanism includes: a lockingportion that restrains movement of the housing in the width direction bybeing in contact with the rail in a usage state where the vehicleheating apparatus is mounted on the vehicle seat; and a lever operativeto disengage the locking portion from the rail. According to the seventhaspect, the housing of the vehicle heating apparatus can be made movablealong the rail by using the lever to disengage the locking portion fromthe rail. In addition, the movement of the housing of the vehicleheating apparatus in the width direction can be restrained by thelocking portion being in contact with the rail.

An eighth aspect of the present disclosure provides a heater-equippedvehicle seat including:

a vehicle seat having a sitting portion; and

the vehicle heating apparatus according to any one of the first toseventh aspects that is mounted on the vehicle seat at a position belowthe sitting portion so as to be movable in a width direction of thevehicle seat.

A ninth aspect of the present disclosure provides the heater-equippedvehicle seat as set forth in the eighth aspect, wherein a pair of thevehicle heating apparatuses are mounted on the vehicle seat at adistance from each other in the width direction. According to the ninthaspect, the occupant can adjust the positions of the vehicle heatingapparatuses in the width direction in accordance with the positions ofthe right and left legs of the occupant. Therefore, the convenience forthe occupant is further improved.

A tenth aspect of the present disclosure provides the heater-equippedvehicle seat as set forth in the eighth aspect or the ninth aspect,further including a support structure fixed to the vehicle seat andsupporting the vehicle heating apparatus, wherein the mounting structureof the vehicle heating apparatus has an engaging portion that engageswith the support structure. According to the tenth aspect, the vehicleheating apparatus can be mounted to the vehicle seat by engagement ofthe engaging portion with the support structure.

An eleventh aspect of the present disclosure provides theheater-equipped vehicle seat as set forth in the tenth aspect, whereinthe support structure has a left support structure and a right supportstructure that are fixed to the vehicle seat at a distance from eachother in the width direction, and the pair of vehicle heatingapparatuses are supported respectively by the left support structure andby the right support structure. According to the eleventh aspect, aspace between the left support structure and the right support structurecan be effectively used.

A twelfth aspect of the present disclosure provides the heater-equippedvehicle seat as set forth in the eleventh aspect, further including aseat position adjustment bar provided between the left support structureand the right support structure and operative to adjust a position ofthe vehicle seat in a back-and-forth direction. According to the twelfthaspect, the seat position adjustment bar can be provided by using thespace between the left support structure and the right supportstructure.

A thirteenth aspect of the present disclosure provides theheater-equipped vehicle seat as set forth in any one of the eighth totwelfth aspects, wherein the support structure has a rail fixed to thevehicle seat so as to extend in the width direction, and the engagingportion is in engagement with the rail in such a manner that the housingof the vehicle heating apparatus is movable along the rail in the widthdirection of the vehicle seat. According to the thirteenth aspect, thehousing can be moved along the rail. Therefore, the position of thevehicle heating apparatus in the width direction can be minutelyadjusted.

A fourteenth aspect of the present disclosure provides theheater-equipped vehicle seat as set forth in the thirteenth aspect,wherein the engaging portion is in engagement with an upper end portionof the rail and a lower end portion of the rail. According to thefourteenth aspect, since the engaging portion engages with the upper endportion of the rail and the lower end portion of the rail, the postureof the housing is stable when the engaging portion is in engagement withthe rail.

A fifteenth aspect of the present disclosure provides theheater-equipped vehicle seat as set forth in the fourteenth aspect,wherein the rail has a middle portion spaced from the housing in aregion between the upper end portion and the lower end portion.According to the fifteenth aspect, the middle portion can be used, forexample, to fix the rail to the vehicle seat.

Hereinafter, embodiments of the present disclosure will be describedwith reference to the drawings. The following description relates toexamples of the present invention, and the present invention is notlimited by these examples. The following description assumes that thevehicle is placed on a horizontal plane.

First Embodiment

As shown in FIG. 1, a heater-equipped vehicle seat 1 includes: a vehicleseat 11 having a back cushion 11A and a sitting cushion 11B; and vehicleheating apparatuses 100A. The heater-equipped vehicle seat 1 is attachedto a base member 12 provided on a floor of the vehicle. The back cushion11A supports the back of the occupant. In the sitting cushion 11B isformed a sitting portion S that supports the upper legs of the occupant.The vehicle heating apparatuses 100A are mounted on the vehicle seat 11at positions below the sitting portion S so as to be movable in thewidth direction (Y direction) of the vehicle seat. That is, theheater-equipped vehicle seat 1 includes the vehicle seat 11 having thesitting portion S and the vehicle heating apparatuses 100A mounted onthe vehicle seat 11 at positions below the sitting portion S. Thevehicle heating apparatuses 100A are provided on an end portion of thevehicle seat 11 in the forward direction (the positive direction of theX axis), and mainly supply warm air to the lower legs of the occupant.In the accompanying drawings, the XY plane is horizontal. The forwarddirection with respect to the heater-equipped vehicle seat 1 is definedas the positive direction of the X axis. The width direction of theheater-equipped vehicle seat 1 is defined as the Y direction, and thedirection from the right leg of the occupant toward the left leg of theoccupant is defined as the positive direction of the Y axis. Thevertical direction perpendicular to the XY plane is defined as the Zdirection, and the vertically upward direction is defined as thepositive direction of the Z axis. In the present description, “left” and“right” are determined with respect to the occupant seated on theheater-equipped vehicle seat 1.

As described above, the vehicle heating apparatus 100A is a heatingapparatus to be mounted on the vehicle seat at a position below thesitting portion S of the vehicle seat 11. As shown in FIG. 2, theheater-equipped vehicle seat 1 further has a support structure 13 fixedto the vehicle seat 11. The support structure 13 supports the vehicleheating apparatus 100A. As shown in FIG. 4, the vehicle heatingapparatus 100A includes a housing 10, a fan 6, a heater 7, and amounting structure 8. The housing 10 has an intake port 2, a blowingport 3, and an internal space 4 serving as a flow path of air from theintake port 2 to the blowing port 3. The fan 6 is provided in theinternal space 4. The heater 7 is also provided in the internal space 4.The mounting structure 8 is a structure for mounting the housing 10 tothe vehicle seat 11 in such a manner that the housing 10 is movable inthe width direction (Y direction) of the vehicle seat 11.

As shown in FIG. 5, the blowing port 3 is located above the intake port2 and opens downwardly relative to the horizontal direction in a state(referred to as a “usage state” hereinafter) where the vehicle heatingapparatus 100A is mounted on the vehicle seat 11. That is, the blowingport 3 opens obliquely downward. In addition, as shown in FIG. 4, thehousing 10 has a confining wall 9 that restrains air from being drawninto the intake port 2 from the back or side in the usage state.

In the usage state, the flow path 4 extends upwardly from the intakeport 2, turns obliquely downward at the upper end of the housing 10, andextends to the blowing port 3. The housing 10 has a portion bent in ahook shape, in which portion the blowing port 3 is formed. By the actionof the fan 6, air around the intake port 2 is drawn through the intakeport 2 and supplied to the internal space 4 (flow path). The airdelivered upwardly by the fan 6 is heated by the heater 7 when flowingin the flow path 4. The air heated by the heater 7 (warm air) is blownout of the housing 10 through the blowing port 3.

As shown in FIG. 4, the fan 6 is located closer to the intake port 2than the heater 7. In the present embodiment, the heater 7 is notsituated in that portion of the flow path 4 which is upstream of the fan6. With such a configuration, pressure loss of air flow in the portionof the flow path 4 which is upstream of the fan 6 is reduced; therefore,reduction in the suction power of the fan 6 is prevented. Since theheater 7 is located in that portion of the flow path 4 which isdownstream of the fan 6, the length of the flow path 4 between theheater 7 and the blowing port 3 is relatively short. Therefore, heatloss of the air heated by the heater 7 is reduced. Furthermore, sincethe air blown from the fan 6 certainly passes through the heater 7, itis possible to reduce non-uniformity of flow velocity distribution ofthe warm air blown out through the blowing port 3.

The vehicle heating apparatus 100A further includes a flow regulatingmember 5 provided in the internal space 4 at a position closer to theintake port 2 than the fan 6. In the present embodiment, the heater 7 isprovided closer to the intake port 2 than the flow regulating member 5.The flow velocity distribution of the flow of air delivered upwardly bythe fan 6 is uniformized by the flow regulating member 5. Therefore, theair flow with the flow velocity distribution uniformized by the flowregulating member 5 reaches the heater 7. As a result, the heater 7 canheat the air flow uniformly.

As shown in FIG. 6, warm air blown to the outside thorough the blowingport 3 flows downwardly along the lower leg of the occupant and reachesthe floor of the vehicle. The warm air having reached the floor of thevehicle is pushed by the subsequent warm air blown out through theblowing port 3, flows upwardly and backwardly, and reaches the vicinityof the intake port 2. Some of the warm air having reached the vicinityof the intake port 2 is drawn into the intake port 2 and supplied to theflow path inside the housing 10. That is, the warm air blown out throughthe blowing port 3 forms a circulating flow in the vicinity of the legof the occupant and thus is highly likely to reach the intake port 2.Therefore, the temperature of the air drawn into the intake port 2 canbe increased, and the amount of heating required for the heater 7 can bereduced.

As the fan 6, an axial-flow fan or a centrifugal fan can be used. Theamount of air delivered by the fan 6 is not particularly limited. Forexample, it is recommended that the air flow have a flow velocity of 0.4to 2.0 m/sec immediately after being driven by the fan 6. If so, thecirculating flow of warm air as described above is more likely to beformed. The heater 7 is, for example, an electric heater such as a PTC(Positive Temperature Coefficient) heater or a ceramic heater. In thiscase, the heater 7 generates heat by receiving electricity supplied froma power supply (omitted from the drawings), and heats the air flowing inthe flow path 4. The output power of the heater 7 is not particularlylimited, and is, for example, 50 to 300 W. The heater 7 may be ahot-water heater or the like that performs heating using a coolanthaving exchanged heat with a heat source (e.g., a water-cooled engine)external to the vehicle heating apparatus 100A.

As shown in FIG. 3, in the upper end portion of the housing 10, theblowing port 3 extends continuously in the width direction (Y-axisdirection). When the vehicle heating apparatus 100A in the usage stateis viewed in plan from the front of the sitting portion S, the positionsof the blowing port 3 and the intake port 2 in the width direction(Y-axis direction) coincide with each other. That is, when the intakeport 2 is shifted in parallel in the vertical direction (Z-axisdirection) in a plan view where the vehicle heating apparatus 100A isviewed in plan from the front of the sitting portion S, the intake port2 overlaps the blowing port 3. Specifically, the intake port 2 islocated directly below the blowing port 3. With such a positionalrelationship, the intake port 2 is located on the path of the flow ofwarm air blown out through the blowing port 3; therefore, the warm airblown out through the blowing port 3 is highly likely to reach theintake port 2. Accordingly, the circulation of warm air between theblowing port 3 and the intake port 2 is promoted.

The width of the blowing port 3 is greater than the width of the intakeport 2. The ratio of the width W2 of the blowing port 3 to the width W1of the intake port 2 (W2/W1) is, for example, in the range of 1.2 to 10.With such a configuration, the above-described effect is moresatisfactorily obtained, in addition to which the effect as describedbelow can be obtained. The blowing port 3 is required to have a certainwidth since it is necessary to warm the calf of the occupant. Bycontrast, the area of the opening of the intake port 2 is desirablysmall in order that air is efficiently drawn into the intake port 2 byincreasing the flow velocity of the air in the vicinity of the intakeport 2 in the flow path 4. With the ratio (W2/W1) being in the aboverange, it is possible to ensure both the warmth for the calf of theoccupant and the efficient suction of air into the intake port 2.

In the usage state, as shown in FIG. 5, the normal line B to the openingface of the blowing port 3 is downwardly inclined at an angle (blowingangle) θ to the horizontal plane A. The blowing angle θ is notparticularly limited as long as it is more than 0° and less than 90°.The blowing angle θ is, for example, in the range of 30° to 70°. Withthe blowing angle θ being in this range, warm air blown out through theblowing port 3 is highly likely to flow along the lower leg of theoccupant and is also highly likely to reach the intake port 2.Therefore, both high probability of warm air reaching the intake port 2and ensuring of warmth for the lower leg of the occupant are reliablyachieved. In order to enhance this effect, the blowing angle θ isdesirably in the range of 35° to 60° , and more desirably in the rangeof 40° to 50°.

As shown in FIG. 4, the flow path 4 has a narrowing flow path 4A havinga flow path cross-sectional area that decreases from the upstream sideto the downstream side in the flow direction of air. Specifically, thewidth of the narrowing flow path 4A in the back-and-forth direction(X-axis direction) of the heater-equipped vehicle seat 1 becomes smallerwith decreasing distance to the blowing port 3. In addition, as shown inFIG. 2, the length of the housing in the width direction (Y-axisdirection) becomes smaller with decreasing distance to the blowing port3. Along with this, the length of the narrowing flow path 4A in thewidth direction also becomes smaller with decreasing distance to theblowing port 3. Therefore, the flow velocity of air flow is increased onthe downstream side in the narrowing flow path 4A. As a result, warm airis blown out through the blowing port 3 at a high flow velocity;therefore, the warmth for the occupant can be increased.

The narrowing flow path 4A is formed downstream of the heater 7 in theflow direction of air. Therefore, warm air produced by heating by theheater 7 flows in the narrowing flow path 4A, due to which the flowvelocity of the warm air is increased. With such a configuration, theflow velocity of air flowing in the heater 7 is lower than the flowvelocity of air flowing in the downstream portion of the narrowing flowpath 4A. Therefore, the air flowing in the heater 7 can be sufficientlyheated by the heater 7.

The mounting structure 8 will be described. As shown in FIG. 5, themounting structure 8 has an engaging portion 8A that engages with thesupport structure 15 fixed to the vehicle seat 11. That is, theheater-equipped vehicle seat 1 includes the support structure 13 thatsupports the vehicle heating apparatus 100A. Specifically, the supportstructure 13 has a rail 13C fixed to the vehicle seat 11 so as to extendin the width direction (Y-axis direction). The support structure 13 isfixed to the vehicle seat 11 by a jig 14. In the jig 14, for example,there are formed screw holes or the like used for fixing the supportstructure 13. The jig 14 is fixed to the vehicle seat 11 by rivets orthe like. The engaging portion 8A is in engagement with the rail 13C insuch a manner that the housing 10 is movable along the rail 13C in thewidth direction (Y-axis direction). Due to such a configuration, theposition of the vehicle heating apparatus 100A in the width directioncan be minutely adjusted. For example, the engaging portion 8A may beformed so as to extend continuously from one end to the other end in thewidth direction (Y-axis direction) of the housing 10. Alternatively, aplurality of engaging portions 8A may be arranged at intervals in thewidth direction (Y-axis direction) of the housing 10.

As shown in FIG. 4, the rail 13C has an upper end portion 13D, a lowerend portion 13E, and a middle portion 13F. The upper end portion 13Dextends in the upward direction (the positive direction of the Z axis)in the usage state. The lower end portion 13E extends in the downwarddirection (the negative direction of the Z axis) in the usage state. Theengaging portion 8A is in engagement with the upper end portion 13D andthe lower end portion 13E. In the engaging portion 8A is formed anengaging slit 8B for engaging with the rail 13C. The width of theengaging slit 8B (the width in the X-axis direction) is slightly greaterthan the thickness of the upper end portion 13D or the thickness of thelower end portion 13E. Therefore, the occupant can minutely move thehousing 10 along the rail 13C in the width direction. Since the engagingportion 8A engages with both of the end portions of the rail 13C in theup-and-down direction (Z-axis direction) in the usage state, the postureof the housing is stable when the engaging portion 8A is in engagementwith the rail 13A is stabilized. In addition, since an interval equal toor greater than a certain length is formed between the position wherethe engaging portion 8A engages with the upper end portion 13D and theposition where the engaging portion 8A engages with the lower endportion 13E, the amount of backlash of the housing 10 in theback-and-forth direction (X-axis direction) of the heater-equippedvehicle seat 1 is reduced.

The middle portion 13F is spaced from the housing 10 in a region betweenthe upper end portion 13D and the lower end portion 13E. For example,the rail 13C can be fixed to the vehicle seat 11 by inserting andtightening screws into through holes formed in the middle portion 13Fand into screw holes of the jig 14. That is, the middle portion 13E canbe used to fix the rail 13C to the vehicle seat 11.

As shown in FIG. 2, a pair of the vehicle heating apparatuses 100A aremounted on the vehicle seat 11 at a distance from each other in thewidth direction (Y-axis direction). Therefore, the occupant can adjustthe position of one vehicle heating apparatus 100A in the widthdirection to the position of the left leg of the occupant, and canadjust the position of the other vehicle heating apparatus 100A in thewidth direction to the position of the right leg of the occupant.Consequently, the convenience for the occupant can be improved. Whenthere is a gap formed between the lower part of the right leg of theoccupant and the lower part of the left leg of the occupant, supply ofthe warm air toward the gap can be prevented.

The support structure 13 has a left support structure 13A (left rail)and a right support structure 13B (right rail) that are fixed to thevehicle seat 11 at a distance from each other in the width direction(Y-axis direction). The pair of vehicle heating apparatuses 100A aresupported respectively by the left support structure 13A and by theright support structure 13B. With such a configuration, the spacebetween the left support structure 13A and the right support structure13B can be effectively used. A power supply unit (omitted from thedrawings) that supplies electricity to the fan 6 and the heater 7, or acontrol unit (omitted from the drawings) that controls the number ofrevolutions of the fan 6 or the amount of heating by the heater 7, maybe disposed outside the housing 10. For example, the space between theleft support structure 13A and the right support structure 13B can beused to dispose the power supply unit or the control unit. When thepower supply unit or the control unit is disposed below the vehicle seat11, cables that make electrical connection between the power supply unitor the control unit and the fan 6 or the heater 7 can be laid out byusing the space.

Modification

The vehicle heating apparatus 100A and the heater-equipped vehicle seat1 of the present embodiment can be modified in various respects. Theheater-equipped vehicle seat 1 may further include a locking mechanismthat can be set to a locking position for restraining the movement ofthe housing 10 in the width direction (Y-axis direction) and to anunlocking position for permitting the movement of the housing 10 in thewidth direction (Y-axis direction). This locking mechanism is, forexample, a latch that comes into contact with the housing 10 at thelocking position. With such a feature, it is possible to prevent thehousing 10 from being moved in the width direction (Y-axis direction)by, for example, an inertial force generated during travel of thevehicle.

As shown in FIG. 7A and FIG. 7B, the vehicle heating apparatus 100A mayfurther include a locking mechanism 15 provided at an end in the widthdirection (Y-axis direction) of the vehicle heating apparatus 100A. Thelocking mechanism 15 includes a lever 15A, a locking portion 15B, and aspring 15C. The lever 15A and the locking portion 15B are integrallyformed as a plate bent in an L-shape. The spring 15C urges the L-shapedplate constituted by the lever 15A and the locking portion 15B so as topress the lever 15A in the upward direction (the positive direction ofthe Z axis). Thus, as shown in FIG. 7B, the locking portion 15Brestrains the movement of the housing 10 in the width direction (Y-axisdirection) by being in contact with the rail 13C.

The lever 15A is formed so as to disengage the locking portion 15B fromthe rail 13C. By the occupant pressing the lever 15A downwardly againstthe urging force of the spring 15C, the locking portion 15B isdisengaged from the rail 13C as shown in FIG. 7A. Thus, the housing 10of the vehicle heating apparatus 100A is made movable along the rail 13Cin the width direction (Y-axis direction). When the fingers of theoccupant are released from the lever 15A, the L-shaped plate is pivotedby the urging force of the spring 15C until the locking portion 15Bcomes into contact with the rail 13C. With such a feature, afteradjustment of the position of the housing 10 of the vehicle heatingapparatus 100A in the width direction (Y-axis direction), the movementof the housing 10 in the width direction (Y-axis direction) can berestrained. Therefore, it is possible to prevent the housing 10 frombeing moved in the width direction (Y-axis direction) by, for example,an inertial force generated during travel of the vehicle.

The support structure 13 may be in the form of a plurality of hooksfixed to the vehicle seat 11 at predetermined intervals in the widthdirection (Y-axis direction), and the engaging portion 8A may beconfigured to engage with at least one (preferably two or more) of thehooks. In this case, there may be formed an engaging hole for engagingwith the hook in the engaging portion 8A, and the engaging portion 8Amay be attachable to and detachable from the hook. The plurality ofhooks may be arranged in a line in the width direction. With such afeature, the support structure 13 can be simplified.

The engaging portion 8A may be configured to be attachable to anddetachable from the support structure 13. For example, the engagingportion 8A may engage only with the upper end portion 13D of the rail13C. With such a feature, the vehicle heating apparatus 100A can easilybe removed from the vehicle seat 11 for maintenance or the like.

The heater-equipped vehicle seat 1 may be configured so that theposition of the vehicle heating apparatus 100A (specifically the housing10) can be adjusted continuously or stepwise in the width direction.Furthermore, the heater-equipped vehicle seat 1 may be configured sothat the vehicle heating apparatus 100A can occupy only two positions inthe width direction. Specifically, the number of positions where thevehicle heating apparatus 100A can be fixed may be only two. Even such aconfiguration can respond satisfactorily to a situation where theoccupant sits on the seat with his/her legs apart and a situation wherethe occupant sits on the seat with his/her legs close together.

The support structure 13 may be configured to extend continuously fromone end to the other end of the vehicle seat 11 in the width direction(Y-axis direction). In this case, the range of motion of the vehicleheating apparatus 100A in the width direction can be set wide.

A single vehicle heating apparatus 100A or a plurality of vehicleheating apparatuses 100A may be mounted on the vehicle seat 11.

The heater 7 may be located closer to the intake port 2 than the fan 6.With such a feature, the flow velocity of warm air blown out through theblowing port 3 can be increased due to the relatively short distancebetween the fan 6 and the blowing port 3. As a result, the circulationof warm air between the blowing port 3 and the intake port 2 ispromoted.

When a pair of the vehicle heating apparatuses 100A are mounted on thevehicle seat 11, there may be a difference between the temperature ofwarm air blown out through the blowing port 3 of one vehicle heatingapparatus 100A and the temperature of warm air blown out through theblowing port 3 of the other vehicle heating apparatus 100A. That is, theamount of heating by the heater 7 of one vehicle heating apparatus 100Amay be larger than the amount of heating by the heater 7 of the othervehicle heating apparatus 100A. With such a feature, for example, warmair having a higher temperature can be blown out through the blowingport 3 of one of the pair of vehicle heating apparatuses 100A that isprovided closer to a window of the vehicle. Therefore, it is possible toreduce the influence of radiation of cool air from the window of thevehicle and thereby to achieve sensory balance of the warmth for theoccupant.

As shown in FIG. 8, the heater-equipped vehicle seat 1 may furtherinclude a seat position adjustment bar 16 provided between the leftsupport structure 13A and the right support structure 13B and operativeto adjust the position of the vehicle seat 11 in the back-and-forthdirection (X-axis direction). Depending on its position, the seatposition adjustment bar 16 can be in two states, a restraining state anda releasing state. When the seat position adjustment bar 16 is in therestraining state, the relative movement between the vehicle seat 11 andthe base member 12 is restrained by a locking mechanism (omitted fromthe figure) coupled to the seat position adjustment bar 16. When, forexample, the seat position adjustment bar 16 is tilted by the occupantin the upward direction (the positive direction of the Z axis) of thevehicle seat 11, the state of the seat position adjustment bar 16changes from the restraining state to the releasing state. When the seatposition adjustment bar 16 is in the releasing state, the lock by thelocking mechanism (omitted from the figure) coupled to the seat positionadjustment bar 16 is released, and the relative movement between thevehicle seat 11 and the base member 12 is enabled. Thus, the occupantcan adjust the position of the vehicle seat 11 in the back-and-forthdirection (X-axis direction). With such a configuration, the occupantcan easily adjust the position of the vehicle seat 11 in theback-and-forth direction. In addition, the seat position adjustment barcan be provided by using the space between the left support structureand the right support structure. Since the parts operated by theoccupant for the adjustment of the position of the vehicle heatingapparatus 100A and the adjustment of the position of the vehicle seat 11are closely located, the convenience for the occupant is improved.

Second Embodiment

A vehicle heating apparatus 100B of a second embodiment of the presentdisclosure will be described. Unless otherwise described, the secondembodiment is configured in the same manner as the first embodiment. Thecomponents of the second embodiment that are the same as or correspondto those of the first embodiment are denoted by the same referencecharacters as used in the first embodiment, and the detailed descriptionof the components are omitted in some cases. That is, the descriptionsgiven for the first embodiment and the modifications of the firstembodiment can apply to the present embodiment unless technicallyinconsistent. This also holds true for the embodiment described later.

As shown in FIG. 9, upward blowing ports 3B are formed in the housing 10of the vehicle heating apparatus 100B. The upward blowing ports 3B areopenings formed so as to blow warm air upwardly in the usage state. Theupward blowing ports 3B are formed at positions adjacent respectively toone end of the blowing port 3 in the width direction (Y-axis direction)and to the other end of the blowing port 3 in the width direction. Thatis, the pair of upward blowing ports 3B open at both ends in the widthdirection of the housing 10. Therefore, as shown in FIG. 9, warm air isnot only blown out through the blowing port 3 but is also blown outthrough the upward blowing ports 3B upwardly. Accordingly, warm air canbe supplied so as to encompass the upper legs of the occupant, due towhich the warmth for the occupant can be increased.

Third Embodiment

A vehicle heating apparatus 100C of a third embodiment of the presentdisclosure will be described. As shown in FIG. 10, oblique blowing ports3C are formed in the housing 10. The oblique blowing ports 3C are formedso as to blow warm air obliquely upward in the usage state.Specifically, the oblique blowing ports 3C are formed so as to blow warmair upwardly of the housing 10 in a direction (an obliquely upwarddirection) inclined relative to the Z-axis direction and the Y-axisdirection. The oblique blowing ports 3C are formed at positions adjacentrespectively to one end of the blowing port 3 in the width direction(Y-axis direction) and the other end of the blowing port 3 in the widthdirection. That is, the pair of oblique blowing ports 3C open at bothends in the width direction of the housing 10. Therefore, as shown inFIG. 10, warm air is not only blown out through the blowing port 3 butis also blown out obliquely upward.

It is often the case that the vehicle seat 11 is located adjacent to awindow of the vehicle that separates the indoor space of the vehiclefrom the outside atmosphere. Therefore, cool air may be radiated fromthe window of the vehicle toward the occupant. In this case, warm aircan be blown out obliquely upward toward the window of the vehiclethrough the oblique blowing ports 3C of the vehicle heating apparatus100C. Therefore, the influence of radiation of cool air from the windowof the vehicle is reduced, due to which the warmth for the occupant canbe increased. The oblique blowing port 3C may be provided only at thatone of the two ends in the width direction of the upper end portion ofthe housing 10 which is closer to the window of the vehicle.

Another Modification

As shown in FIG. 11, a vehicle heating apparatus 100D may include aradiation member 10A on the front surface of the housing 10. Theradiation member 10A exchanges heat with warm air present between theheater 7 and the blowing port 3, and radiates heat outwardly. In theusage state, the radiation member 10A radiates heat forward. Theradiation member 10A is a metal plate made of aluminum, iron, or thelike. In order to ensure a large radiation area, projections anddepressions are formed in the front face of the radiation member 10A.The back face of the radiation member 10A is in contact with the housing10, and is thus heated by warm air present between the heater 7 and theblowing port 3. An opening appropriate for the size of the radiationmember 10A may be formed in the front face of the housing 10, and theradiation member 10A may be attached in such a manner as to close theopening. In this case, the back face of the radiation member 10A forms aportion of the flow path 4. With such a feature, heat can be radiatedforward by the radiation member 10A; therefore, the warmth for theoccupant can be increased.

In the vehicle heating apparatus 100D, a plate-shaped electric heater(omitted from the figure) such as a PTC heater or a ceramic heater maybe attached to the front face of the housing 10 in place of theradiation member 10A or in addition to the radiation member 10A. Alsowith such a feature, the warmth for the occupant can be increased.

The pair of vehicle heating apparatuses mounted on the vehicle seat 11at a distance from each other in the width direction (Y-axis direction)may be constituted by an arbitrary combination of the vehicle heatingapparatuses 100A to 100D described above. In this case, in order toreduce the influence of the radiation of cool air from a window of thevehicle, it is recommended to use the vehicle heating apparatus 100C asthat one of the pair of vehicle heating apparatuses which is closer tothe window of the vehicle.

The postures of the vehicle heating apparatuses 100A to 100D in theusage state are not limited to those assumed by the vehicle heatingapparatuses 100A to 100D in the case where the XY plane is horizontal inthe accompanying drawings. The postures of the vehicle heatingapparatuses 100A to 100D in the usage state may be those assumed by thevehicle heating apparatuses 100A to 100D in the case where the XY planein the accompanying drawings is inclined at an angle of, for example, 5°or less to the horizontal plane.

INDUSTRIAL APPLICABILITY

The vehicle heating apparatuses disclosed in the present description canbe applied to seats of vehicles such as automobiles, electric trains,airplanes, and ships.

1-15. (canceled)
 16. A heater-equipped seat comprising: a sittingportion; a housing having an intake port, a blowing port, and aninternal space serving as a flow path of air from the intake port to theblowing port, the housing mounted at a position below the sittingportion; a fan provided in the internal space; a heater provided in theinternal space; and a mounting structure adapted to mount the housing insuch a manner that the housing is movable in a width direction of theheater-equipped seat.
 17. The heater-equipped seat according to claim16, the blowing port is located above the intake port and opensdownwardly relative to a horizontal direction.
 18. The heater-equippedseat according to claim 16, wherein the flow path of air has a narrowingflow path having a flow path cross-sectional area that decreases from anupstream side toward a downstream side in a flow direction of air. 19.The heater-equipped seat according to claim 16, further comprising asupport structure fixed to the heater-equipped seat and supporting theheating apparatus, wherein the mounting structure of the heatingapparatus has an engaging portion that is in engagement with the supportstructure.
 20. The heater-equipped seat according to claim 19, whereinthe support structure has a rail fixed to the heater-equipped seat so asto extend in the width direction of the heater-equipped seat, and theengaging portion is in engagement with the rail in such a manner thatthe housing is movable along the rail in the width direction of theheater-equipped seat.
 21. The heater-equipped seat according to claim20, the engaging portion is in engagement with an upper end portion ofthe rail and a lower end portion of the rail.
 22. The heater-equippedseat according to claim 20, further comprising a locking mechanismprovided at an end in a width direction of the housing, wherein thelocking mechanism includes: a locking portion that restrains movement ofthe housing in the width direction of the heater-equipped seat by beingin contact with the rail; and a lever operative to disengage the lockingportion from the rail.
 23. The heater-equipped seat according to claim16, wherein a pair of the heating apparatuses are mounted at a distancefrom each other in the width direction of the heater-equipped seat. 24.The heater-equipped seat according to claim 19, wherein a pair of theheating apparatuses are mounted at a distance from each other in thewidth direction of the heater-equipped seat, the support structure has aleft support structure and a right support structure that are fixed at adistance from each other in the width direction of the heater-equippedseat, and the pair of heating apparatuses are supported respectively bythe left support structure and by the right support structure.
 25. Theheater-equipped seat according to claim 24, further comprising a seatposition adjustment bar provided between the left support structure andthe right support structure and operative to adjust a position of theheater-equipped seat in a back-and-forth direction.
 26. Theheater-equipped seat according to claim 21, wherein the rail has amiddle portion spaced from the housing in a region between the upper endportion and the lower end portion.